Prerna Chaudhary | Machine Learning | Best Researcher Award

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Ms. Prerna Chaudhary | Machine Learning | Best Researcher Award

Ms. Prerna Chaudhary | Machine Learning | PhD student at IIT DELHI | India

Ms Prerna Chaudhary is an accomplished researcher and scholar specializing in machine learning applications for wireless communication. She earned her Ph.D. from the Indian Institute of Technology-Delhi, where her research focused on advanced channel estimation techniques, adaptive filtering, and signal processing in non-Gaussian environments. Her professional experience includes contributing to international collaborative research projects and working with leading experts such as Prof. Manav R. Bhatnagar and B.R. Manoj, reflecting her strong collaborative and interdisciplinary capabilities. Ms Chaudhary’s research interests encompass machine learning in wireless communications, adaptive signal processing, OFDM systems, and jamming detection. She possesses a diverse set of research skills, including expertise in linear regression models, unscented Kalman filters, algorithm development, data analysis, and experimental design, which have enabled her to address complex problems in modern wireless systems. Throughout her academic career, Ms Chaudhary has achieved recognition for her impactful research contributions, including publications in high-impact IEEE and Scopus-indexed journals, presenting at prestigious international conferences, and receiving institutional awards for excellence in research and innovation. Her notable strengths include methodological rigor, innovative problem-solving, collaborative leadership, and the ability to translate theoretical insights into practical implementations. Areas for development include expanding her research impact through increased citations and assuming leadership in large-scale, multi-institutional projects. Ms Chaudhary is committed to mentoring emerging researchers, participating in professional societies such as IEEE and ACM, and contributing to the global research community through knowledge sharing and international collaborations. Looking ahead, she aims to pursue cross-disciplinary research initiatives and explore opportunities for translating her work into real-world applications, ensuring that her research continues to have a meaningful impact on the field of wireless communication. Ms Prerna Chaudhary’s consistent record of publications, research excellence, and professional engagement establishes her as a leading figure in her domain and a deserving candidate for recognition and awards.

Academic Profile: Google Scholar

Featured Publications:

  1. Chaudhary, P., Chauhan, I., Manoj, B. R., & Bhatnagar, M. R. (2024). Linear Regression-Based Channel Estimation for Non-Gaussian Noise. IEEE 99th Vehicular Technology Conference (VTC2024-Spring). Citation: 2

  2. Chaudhary, P., Manoj, B. R., Chauhan, I., & Bhatnagar, M. R. (2025). Channel Estimation using Linear Regression with Bernoulli-Gaussian Noise.

  3. Srivastava, S., Chaudhary, P., & Bhatnagar, M. R. (2024). Comparative Analysis of Machine Learning Algorithms for Pulse Jammer Detection. IEEE International Conference on Advanced Networks and …. Citation: 0

  4. Chaudhary, P., Manoj, B. R., Patidar, V. K., & Bhatnagar, M. R. (2024). Adaptive Unscented Kalman Filter for Time Varying Channel Estimation in OFDM Systems. IEEE International Conference on Advanced Networks and ….

 

Serdar kırışoğlu | Artificial Intelligence | Best Researcher Award

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Assoc. Prof. Dr. Serdar kırışoğlu | Artificial Intelligence | Best Researcher Award

Assoc. Prof. Dr. Serdar kırışoğlu | Artificial Intelligence – Academic Staff at Duzce University, Turkey

Assoc. Prof. Dr. Serdar KIRIŞOĞLU is a prominent scholar and researcher whose work bridges artificial intelligence, machine learning, blockchain systems, and data-driven analytics. As a faculty member at Düzce University’s Department of Computer Engineering, he has contributed significantly to advancing technology in economic forecasting, smart systems, and secure networks. Over the course of his academic career, he has guided multiple research initiatives, mentored graduate and doctoral students, and published impactful research recognized by leading journals and conferences worldwide.

Academic Profile:

ORCID

Education:

Dr. KIRIŞOĞLU earned his Ph.D. in Electrical-Electronics and Computer Engineering in 2018 from Düzce University, where his dissertation introduced a novel dynamic VLAN approach to optimize the systematic design of corporate networks. He previously obtained a Master’s degree in Electrical Education in 2009 from Abant İzzet Baysal University, focusing on FPGA-based hardware solutions for secure digital image data embedding and extraction, and a Bachelor’s degree in Electrical-Electronics Engineering in 2000 from Kahramanmaraş Sütçü İmam University, laying the groundwork for his expertise in computer engineering and digital systems.

Experience:

With a career rooted in academia and research, Dr. KIRIŞOĞLU has been an integral part of Düzce University since 2018, serving as an Associate Professor and leading various roles, including Head of the IT Department, where he drives digital transformation and technological innovation. His experience spans leadership in high-impact national and international projects, including initiatives on big data infrastructure, augmented reality applications, AI-based economic crisis detection, and advanced cybersecurity measures. He has also served as a dedicated supervisor for numerous master’s and doctoral theses, fostering future researchers in cutting-edge fields like financial analytics, machine learning, and natural language processing.

Research Interest:

Dr. KIRIŞOĞLU’s research interests encompass artificial intelligence, machine learning, blockchain-based systems, big data analytics, and network optimization. His current projects involve developing predictive models for stock markets using AI, applying NLP to detect economic crises, enhancing cybersecurity through intelligent threat detection, and integrating augmented reality with web-based systems. His interdisciplinary approach consistently merges theoretical innovation with practical applications, benefiting sectors such as finance, education, and healthcare.

Award:

His dedication to advancing computer engineering has positioned him as a strong nominee for the Best Researcher Award 2025, with recognition stemming from his leadership in research-driven projects, his impactful publications indexed in Scopus and IEEE, and his ongoing contributions to mentoring future scholars and innovators in AI and technology.

Publications:

Detection of Economic Crises With Language Models and Comparative Analysis of Simple Time Series Analysis Models and Machine Learning Algorithms on the Stock Market – IEEE Access, 2025.
Determination of Gold Purity Degrees Using Audio Features with Machine Learning Algorithms – Applied Acoustics, July 2025.
Cyclical Hybrid Imputation Technique for Missing Values in Data Sets – Scientific Reports, February 2025.
Sustainable Economic Development Through Crisis Detection Using AI Techniques – Sustainability, February 2025.
GSelf-MapReduce: A Method for Enhancing MapReduce Performance in Distributed Heterogeneous Data Centers – IEEE Access, 2024.
Pandemi Sürecinde Uzaktan Eğitimde Senkron, Asenkron ve Hibrit Yapılmış Derslerde Veri Madenciliği ile Öğrenci Performans Analizi – Düzce Üniversitesi Bilim ve Teknoloji Dergisi, January 2024.
Çok Katmanlı Algılayıcı ile Ağ Trafiği Sınıflandırma Analizi – Düzce Üniversitesi Bilim ve Teknoloji Dergisi, April 2022.

Conclusion:

Assoc. Prof. Dr. Serdar KIRIŞOĞLU’s career exemplifies academic excellence, impactful research, and forward-thinking innovation, making him an ideal candidate for the Best Researcher Award 2025. His pioneering work in artificial intelligence, big data, and blockchain, combined with his dedication to mentoring and leading research initiatives, underscores his substantial contributions to both science and society. With a growing body of influential publications and leadership in transformative projects, he continues to shape the future of computer engineering and remains committed to expanding his global academic impact through further collaborations and innovations.